Implicit integration of a generalized plasticity constitutive model for partially saturated soil

H. W. Zhang; O. M. Heeres; R. De Borst; B. A. Schrefler

doi:10.1108/02644400110365941

Implicit integration of a generalized plasticity constitutive model for partially saturated soil

H. W. Zhang, O. M. Heeres, R. De Borst, B. A. Schrefler

Research output: Contribution to journal › Article › peer-review

41 Scopus citations

Abstract

Extends the stress update algorithm and the tangent operator recently proposed for generalized plasticity by De Borst and Heeres to the case of partially saturated soils, where on top of the hydrostatic and deviatoric components of the (effective) stress tensor suction has to be considered as a third independent variable. The soil model used for the applications is the Bolzon-Schrefler-Zienkiewicz model, which is an extension of the Pastor-Zienkiewicz model to partial saturation. The algorithm is incorporated in a code for partially saturated soil dynamics. Back calculation of a saturation test and simulation of surface subsidence above an exploited gas reservoir demonstrate the advantage of the proposed algorithm in terms of iteration convergence of the solution.

Original language	English (US)
Pages (from-to)	314-336
Number of pages	23
Journal	Engineering Computations (Swansea, Wales)
Volume	18
Issue number	1-2
DOIs	https://doi.org/10.1108/02644400110365941
State	Published - Jan 1 2001

Keywords

Plasticity
Soil
Stress

ASJC Scopus subject areas

Safety, Risk, Reliability and Quality
Applied Mathematics
Computational Theory and Mathematics
Computer Science Applications
Computational Mechanics
Mechanics of Materials
Mechanical Engineering

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10.1108/02644400110365941

Cite this

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AU - Zhang, H. W.

AU - Heeres, O. M.

AU - De Borst, R.

AU - Schrefler, B. A.

PY - 2001/1/1

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AB - Extends the stress update algorithm and the tangent operator recently proposed for generalized plasticity by De Borst and Heeres to the case of partially saturated soils, where on top of the hydrostatic and deviatoric components of the (effective) stress tensor suction has to be considered as a third independent variable. The soil model used for the applications is the Bolzon-Schrefler-Zienkiewicz model, which is an extension of the Pastor-Zienkiewicz model to partial saturation. The algorithm is incorporated in a code for partially saturated soil dynamics. Back calculation of a saturation test and simulation of surface subsidence above an exploited gas reservoir demonstrate the advantage of the proposed algorithm in terms of iteration convergence of the solution.

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KW - Soil

KW - Stress

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Implicit integration of a generalized plasticity constitutive model for partially saturated soil

Abstract

Keywords

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